CN103381424A - Steel rail rolling method for reducing inner loosing of steel rail - Google Patents
Steel rail rolling method for reducing inner loosing of steel rail Download PDFInfo
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- CN103381424A CN103381424A CN2012101345096A CN201210134509A CN103381424A CN 103381424 A CN103381424 A CN 103381424A CN 2012101345096 A CN2012101345096 A CN 2012101345096A CN 201210134509 A CN201210134509 A CN 201210134509A CN 103381424 A CN103381424 A CN 103381424A
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Abstract
The invention relates to a steel rail rolling method for reducing inner loosing of a steel rail, which comprises the following steps: a universal mill is adopted to roll a continuously cast bloom into the steel rail; the perpendicular section of the continuously cast bloom in the length direction is rectangular; the continuously cast bloom is transported by a transportation roller way; during the process of adopting the universal mill to roll the continuously cast bloom into the steel rail, the long edge of the perpendicular section is rolled into the high of the steel rail. The inner loosing of the steel rail can be reduced or even eliminated without changing the size of the continuously cast bloom, the happening of end part head splitting can be avoided, and the method is in favor of improving the inner quality of the steel rail.
Description
Technical field
The present invention relates to the steel rolling field, particularly, relate to a kind of steel rail rolling method be used to reducing the rail internal defect.
Background technology
When adopting the continuous casting billet milling rail, particularly during rolling of heavy rail, mostly adopt rectangular bloom (that is, as shown in Figure 1, the vertical cross section along its length of continuous casting billet is rectangle), and, mostly use now the Rolling With Universal Mill rail.but, because continuous casting billet can form center porosity in casting process, after using universal rolling that continuous casting billet milling is become rail, also have internal defect exists in the inside of rail, thereby make rail defective when carrying out the check of rail profile macrostructure, and, more seriously, the center porosity of continuous casting billet inside may extend in the operation of rolling and be communicated with the surface of steel billet in addition, thereby the two ends along its length that make rail can produce end straight on the head (crack or layering), the cost that the internal defect of reparation rail and end defective straight on the head need is high, and the end straight on the head will be damaged production equipment and may cause the personal safety accident.And usually can only adopt the method for the size that changes continuous casting billet to reduce the problems referred to above now.
Summary of the invention
The purpose of this invention is to provide a kind of steel rail rolling method be used to reducing the rail internal defect, the size that the method need not to change continuous casting billet can reduce even to eliminate the internal defect of rail, avoid end generation straight on the head, be conducive to improve the internal soundness of rail.
To achieve these goals, a kind of steel rail rolling method be used to reducing the rail internal defect according to the present invention uses universal mill that continuous casting billet milling is become rail, the vertical cross section along its length of described continuous casting billet is rectangle, described continuous casting billet is transported by conveyor roller, and, use described universal mill described continuous casting billet milling to be become in the process of described rail, the long limit of described vertical cross section is rolled into the height of described rail.
Preferably, the pass schedule of described universal mill comprises the first box pass, the second box pass, trapezoidal pass, hat pass and rail shape pass successively, this steel rail rolling method comprises: when described continuous casting billet passes through in described trapezoidal pass, make the minor face of described vertical cross section perpendicular to the height of the trapezoidal cross-section of described trapezoidal pass.
Preferably, this steel rail rolling method comprises:
(a) described continuous casting billet is configured such that the minor face of described vertical cross section contacts with described conveyor roller, then, makes described continuous casting billet by described the first box pass, described continuous casting billet passes through the rolling of 1-5 passage in described the first box pass;
(b) described continuous casting billet is configured such that the long limit of described vertical cross section contacts with described conveyor roller, then makes described continuous casting billet by described the second box pass;
(c) described continuous casting billet is configured such that the minor face of described vertical cross section perpendicular to the height of the trapezoid cross section of described trapezoidal pass, then, makes described continuous casting billet by described trapezoidal pass;
(d) described continuous casting billet is configured such that the long limit of described vertical cross section perpendicular to the crown of the hat section of described hat pass, then, makes described continuous casting billet by described hat pass;
(e) described continuous casting billet is configured such that the minor face of described vertical cross section is high perpendicular to the rail of the rail tee section of described rail shape pass, then, makes described continuous casting billet by described roll forming pass.
Steel rail rolling method according to the present invention is simple to operate, need not to change the size of continuous casting billet, only need to control the set-up mode of continuous casting billet when rolling, the height that makes the long limit of the vertical cross section of continuous casting billet be rolled into rail gets final product, use steel rail rolling method of the present invention can obviously reduce even to eliminate the internal defect of rail, avoid end generation straight on the head, be conducive to improve the internal soundness of rail.
Other features and advantages of the present invention will partly be described in detail in the specific embodiment subsequently.
Description of drawings
Accompanying drawing is to be used to provide a further understanding of the present invention, and consists of the part of specification, is used from explanation the present invention with the following specific embodiment one, but is not construed as limiting the invention.In the accompanying drawings:
Fig. 1 is the stereogram of the continuous casting billet that uses in the present invention;
Fig. 2 is the sectional schematic diagram of rail;
Fig. 3 has contrasted respectively the situation of change of center porosity when the minor face of the vertical cross section of continuous casting billet and long limit are depressed;
Fig. 4 is the pass schedule of a kind of universal mill of using in the present invention.
Description of reference numerals
High 1 first closed box groove of h rail
2 second closed box groove 3 trapezoidal passes
4 hat pass 5 rail shape passes
The specific embodiment
Below in conjunction with accompanying drawing, the specific embodiment of the present invention is elaborated.Should be understood that, the specific embodiment described herein only is used for description and interpretation the present invention, is not limited to the present invention.
In the present invention, in the situation that do not illustrate, described " vertical cross section " all refers to continuous casting billet before rolling, along the vertical cross section of the length direction of this continuous casting billet.
The present invention is mainly to be the continuous casting billet of rectangle for along its length vertical cross section, the present invention uses universal mill that continuous casting billet milling is become rail, in rolling equipment, this continuous casting billet is transported by conveyor roller, and, in the use universal mill becomes the process of rail with continuous casting billet milling, the long limit of described vertical cross section is rolled into the height (being the h in Fig. 2) of described rail.
Fig. 3 has contrasted respectively the situation of change of center porosity when the minor face of the vertical cross section of continuous casting billet and long limit are depressed.find after deliberation, the center porosity that continuous casting billet forms in the continuous casting cooling procedure is different along the development length on all directions, as shown in Figure 3, particularly, this center porosity along the length on the long side direction of the vertical cross section of continuous casting billet greater than the length on short side direction, and, in the operation of rolling, suppose that continuous casting billet is subject to Vertical Square and upwards pressure, so, the two ends, left and right of center porosity can be extended by along continuous straight runs under the effect of stress, if center porosity is horizontal-extending but is not communicated with the surface of continuous casting billet, so, center porosity may be closed gradually along with the increase of the drafts of vertical direction, and make the upper and lower surface of center porosity finally merge, thereby center porosity disappears, but, if center porosity is communicated with the surface of continuous casting billet in this process, the rail that is rolled into so can be formed with the end straight on the head.Therefore, as shown in Figure 3, due to the less and easier pressing along the center porosity of short side direction, when selecting the minor face of the vertical cross section of continuous casting billet as the face vertically depressed, center porosity is easily by pressing.When steel rail rolling method according to the present invention is chosen in roll out steel rail, the long limit of described vertical cross section is rolled into the height of rail, like this, the center porosity along short side direction of described continuous casting billet partly is rolled into the waist position of rail, because the drafts at the waist position that forms rail of continuous casting billet in the operation of rolling is larger, therefore, such milling method can make the center porosity pressing along the short side direction of described vertical cross section of less and easier pressing as can be known in sum, thereby has reduced internal defect or the end generation straight on the head of rail.
For different universal mills, the concrete operation step of the method according to this invention is slightly different.For example, as shown in Figure 4, the universal mill system that uses in the present embodiment comprises the first box pass 1, the second box pass 2, trapezoidal pass 3, hat pass 4 and rail shape pass 5 successively.For the universal mill with above-mentioned pass schedule, the steel rail rolling method for reducing the rail internal defect of the present invention comprises: when continuous casting billet passes through trapezoidal pass, make the minor face of vertical cross section perpendicular to the height of the trapezoidal cross-section of described trapezoidal pass.Like this, according to the set-up mode of above-mentioned universal mill, the long limit of described vertical cross section will be rolled into the height of rail.
And, as a kind of preferred embodiment, steel rail rolling method according to the present invention specifically comprises: (a) continuous casting billet is configured such that the minor face of vertical cross section contacts with conveyor roller, then, make continuous casting billet pass through the first box pass 1, continuous casting billet passes through the rolling of 1-5 passage in the first box pass 1; (b) the long limit that continuous casting billet is configured such that vertical cross section contacts with conveyor roller, then makes continuous casting billet pass through the second box pass 2; (c) continuous casting billet is configured such that the minor face of vertical cross section perpendicular to the height of the trapezoid cross section of trapezoidal pass 3, then, makes continuous casting billet pass through trapezoidal pass 3; (d) continuous casting billet is configured such that the long limit of vertical cross section perpendicular to the crown of the hat section of hat pass 4, then, makes continuous casting billet pass through hat pass 4; (e) continuous casting billet is configured such that the minor face of vertical cross section is high perpendicular to the rail of the rail tee section of rail shape pass 5, then, makes continuous casting billet pass through roll forming pass 5.
Above-mentioned steps (a) and (b) be to be rolled into the required shape of follow-up trapezoidal pass 3 for the vertical cross section with continuous casting billet namely makes the section of continuous casting billet close to square.Step (c), (d) and (e) be that this continuous casting billet is formed rolling process.
Below in conjunction with embodiment, the method for above-mentioned continuous casting billet milling rail is specifically described.
adopting vertical cross section is the continuous casting billet production 60kg/M heavy rail of 380mm * 280mm, steel billet from heating furnace out the time the long limit (length is 380mm) of the vertical cross section of this continuous casting billet contact with conveyor roller, the operation of rolling comprises substantially: A, turn over steel (upset continuous casting billet), the minor face (length is 280mm) of the vertical cross section of continuous casting billet is contacted with conveyor roller, then, continuous casting billet is by the first box pass 1, and in the first box pass 1 rolling 2 passages, the size (the long edge lengths * bond length of section) of the section of the rolling complete rear continuous casting billet of each passage (vertical cross section of the length direction of the continuous casting billet after rolling) is followed successively by: 310mm * 290mm and 230mm * 300mm, B, turn over steel, the long limit of vertical cross section is contacted, then with conveyor roller, continuous casting billet is by the second box pass 2, rolling 1 passage, so that the shape of vertical cross section is more suitable for follow-up trapezoidal pass 3, the size of the section of rolling rear continuous casting billet is: 250mm * 240mm, C, due to from the minor face of the vertical cross section of the second box pass 2 continuous casting billet out height perpendicular to the trapezoidal cross-section of trapezoidal pass 3, therefore, need not to turn over steel, continuous casting billet is directly by trapezoidal pass 3, rolling 1 passage, the size of the section of rolling rear continuous casting billet is: 200mm * 220mm, D, before entering hat pass 4, continuous casting billet turns over steel, make the long limit of vertical cross section perpendicular to the crown of the hat section of hat pass 4, then, continuous casting billet is by hat pass 4, rolling 1 passage, the size of the section of rolling rear continuous casting billet is: 170mm * 220mm, E, because the minor face from the vertical cross section of hat pass 4 continuous casting billet out is high perpendicular to the rail of the rail tee section of rail shape pass 5, therefore, need not to turn over steel, continuous casting billet is by roll forming pass 5, have 5 roll forming passes in the universal mill of present embodiment, and continuous casting billet is in rolling 9 passages of roll forming pass 5.
At rolling complete rear detection rail, and produce the 60kg/m heavy rail with the same employing vertical cross section continuous casting billet that is 380mm * 280mm but the minor face of described vertical cross section is rolled into the rail that is rolled in the high situation of rail and compare.Find that rail exists the end straight on the head when the minor face with described vertical cross section is rolled into rail high, and this end layering opening degree straight on the head reaches 5.5mm, and according to milling method of the present invention, do not have the end straight on the head; And rail is carried out finding after the macrostructure inspection internal defect of rail when when the minor face of described vertical cross section is rolled into rail high, the internal defect of rail is significantly less than long limit with described vertical cross section and is rolled into rail high.Therefore, the present invention can significantly reduce the internal defect of rail, and avoids the end generation straight on the head of rail, has obviously improved the internal soundness of rail.
Below describe by reference to the accompanying drawings the preferred embodiment of the present invention in detail; but; the present invention is not limited to the detail in above-mentioned embodiment; in technical conceive scope of the present invention; can carry out multiple simple variant to technical scheme of the present invention, these simple variant all belong to protection scope of the present invention.
Claims (3)
1. steel rail rolling method that is used for reducing the rail internal defect, the method uses universal mill that continuous casting billet milling is become rail, the vertical cross section along its length of described continuous casting billet is rectangle, described continuous casting billet is transported by conveyor roller, it is characterized in that, use described universal mill described continuous casting billet milling to be become in the process of described rail, the long limit of described vertical cross section is rolled into the height of described rail.
2. the steel rail rolling method be used to reducing the rail internal defect according to claim 1, wherein, the pass schedule of described universal mill comprises the first box pass, the second box pass, trapezoidal pass, hat pass and rail shape pass successively, this steel rail rolling method comprises: when described continuous casting billet passes through in described trapezoidal pass, make the minor face of described vertical cross section perpendicular to the height of the trapezoidal cross-section of described trapezoidal pass.
3. the steel rail rolling method be used to reducing the rail internal defect according to claim 2, wherein, this steel rail rolling method comprises:
(a) described continuous casting billet is configured such that the minor face of described vertical cross section contacts with described conveyor roller, then, makes described continuous casting billet by described the first box pass, described continuous casting billet passes through the rolling of 1-5 passage in described the first box pass;
(b) described continuous casting billet is configured such that the long limit of described vertical cross section contacts with described conveyor roller, then makes described continuous casting billet by described the second box pass;
(c) described continuous casting billet is configured such that the minor face of described vertical cross section perpendicular to the height of the trapezoid cross section of described trapezoidal pass, then, makes described continuous casting billet by described trapezoidal pass;
(d) described continuous casting billet is configured such that the long limit of described vertical cross section perpendicular to the crown of the hat section of described hat pass, then, makes described continuous casting billet by described hat pass;
(e) described continuous casting billet is configured such that the minor face of described vertical cross section is high perpendicular to the rail of the rail tee section of described rail shape pass, then, makes described continuous casting billet by described roll forming pass.
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CN2012101345096A CN103381424A (en) | 2012-05-03 | 2012-05-03 | Steel rail rolling method for reducing inner loosing of steel rail |
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CN2012101345096A CN103381424A (en) | 2012-05-03 | 2012-05-03 | Steel rail rolling method for reducing inner loosing of steel rail |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5850101A (en) * | 1981-09-22 | 1983-03-24 | Nippon Steel Corp | Universal rolling method for rail |
JPH0386301A (en) * | 1989-08-29 | 1991-04-11 | Nippon Steel Corp | Rail rolling method |
CN1189399A (en) * | 1996-12-04 | 1998-08-05 | Sms舒路曼-斯玛公司 | Method of rolling cogged ingot into finished section bar by utilizing reversible operation rolling mill |
CN101642773A (en) * | 2009-08-31 | 2010-02-10 | 攀枝花新钢钒股份有限公司 | Production line of special section wing rail and manufacturing method thereof |
CN101844150A (en) * | 2010-05-18 | 2010-09-29 | 攀钢集团钢铁钒钛股份有限公司 | Universal rolling technology for rails |
-
2012
- 2012-05-03 CN CN2012101345096A patent/CN103381424A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS5850101A (en) * | 1981-09-22 | 1983-03-24 | Nippon Steel Corp | Universal rolling method for rail |
JPH0386301A (en) * | 1989-08-29 | 1991-04-11 | Nippon Steel Corp | Rail rolling method |
CN1189399A (en) * | 1996-12-04 | 1998-08-05 | Sms舒路曼-斯玛公司 | Method of rolling cogged ingot into finished section bar by utilizing reversible operation rolling mill |
CN101642773A (en) * | 2009-08-31 | 2010-02-10 | 攀枝花新钢钒股份有限公司 | Production line of special section wing rail and manufacturing method thereof |
CN101844150A (en) * | 2010-05-18 | 2010-09-29 | 攀钢集团钢铁钒钛股份有限公司 | Universal rolling technology for rails |
Non-Patent Citations (1)
Title |
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林健椿: "攀钢重轨轧制及孔型设计特点", 《钢铁钒钛》 * |
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Application publication date: 20131106 |